/[MITgcm]/manual/s_overview/text/manual.tex
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revision 1.27 by jmc, Thu Jan 17 21:28:22 2008 UTC revision 1.29 by jmc, Mon Aug 30 23:09:21 2010 UTC
# Line 61  hydrodynamical kernel is used to drive f Line 61  hydrodynamical kernel is used to drive f
61  models - see fig \ref{fig:onemodel}  models - see fig \ref{fig:onemodel}
62    
63  %% CNHbegin  %% CNHbegin
64  \input{part1/one_model_figure}  \input{s_overview/text/one_model_figure}
65  %% CNHend  %% CNHend
66    
67  \item it has a non-hydrostatic capability and so can be used to study both  \item it has a non-hydrostatic capability and so can be used to study both
68  small-scale and large scale processes - see fig \ref{fig:all-scales}  small-scale and large scale processes - see fig \ref{fig:all-scales}
69    
70  %% CNHbegin  %% CNHbegin
71  \input{part1/all_scales_figure}  \input{s_overview/text/all_scales_figure}
72  %% CNHend  %% CNHend
73    
74  \item finite volume techniques are employed yielding an intuitive  \item finite volume techniques are employed yielding an intuitive
# Line 76  discretization and support for the treat Line 76  discretization and support for the treat
76  orthogonal curvilinear grids and shaved cells - see fig \ref{fig:finite-volumes}  orthogonal curvilinear grids and shaved cells - see fig \ref{fig:finite-volumes}
77    
78  %% CNHbegin  %% CNHbegin
79  \input{part1/fvol_figure}  \input{s_overview/text/fvol_figure}
80  %% CNHend  %% CNHend
81    
82  \item tangent linear and adjoint counterparts are automatically maintained  \item tangent linear and adjoint counterparts are automatically maintained
# Line 177  in Held and Suarez; 1994 designed to tes Line 177  in Held and Suarez; 1994 designed to tes
177  there are no mountains or land-sea contrast.  there are no mountains or land-sea contrast.
178    
179  %% CNHbegin  %% CNHbegin
180  \input{part1/cubic_eddies_figure}  \input{s_overview/text/cubic_eddies_figure}
181  %% CNHend  %% CNHend
182    
183  As described in Adcroft (2001), a `cubed sphere' is used to discretize the  As described in Adcroft (2001), a `cubed sphere' is used to discretize the
# Line 193  cube-sphere grid and the flow calculated Line 193  cube-sphere grid and the flow calculated
193  latitude-longitude grid. Both grids are supported within the model.  latitude-longitude grid. Both grids are supported within the model.
194    
195  %% CNHbegin  %% CNHbegin
196  \input{part1/hs_zave_u_figure}  \input{s_overview/text/hs_zave_u_figure}
197  %% CNHend  %% CNHend
198    
199  \subsection{Ocean gyres}  \subsection{Ocean gyres}
# Line 224  transport of warm water northward by the Line 224  transport of warm water northward by the
224  is also clearly visible.  is also clearly visible.
225    
226  %% CNHbegin  %% CNHbegin
227  \input{part1/atl6_figure}  \input{s_overview/text/atl6_figure}
228  %% CNHend  %% CNHend
229    
230    
# Line 246  Figure \ref{fig:large-scale-circ} (botto Line 246  Figure \ref{fig:large-scale-circ} (botto
246  circulation of the global ocean in Sverdrups.  circulation of the global ocean in Sverdrups.
247    
248  %%CNHbegin  %%CNHbegin
249  \input{part1/global_circ_figure}  \input{s_overview/text/global_circ_figure}
250  %%CNHend  %%CNHend
251    
252  \subsection{Convection and mixing over topography}  \subsection{Convection and mixing over topography}
# Line 269  strong, and replaced by lateral entrainm Line 269  strong, and replaced by lateral entrainm
269  instability of the along-slope current.  instability of the along-slope current.
270    
271  %%CNHbegin  %%CNHbegin
272  \input{part1/convect_and_topo}  \input{s_overview/text/convect_and_topo}
273  %%CNHend  %%CNHend
274    
275  \subsection{Boundary forced internal waves}  \subsection{Boundary forced internal waves}
# Line 291  using MITgcm's finite volume spatial dis Line 291  using MITgcm's finite volume spatial dis
291  nonhydrostatic dynamics.  nonhydrostatic dynamics.
292    
293  %%CNHbegin  %%CNHbegin
294  \input{part1/boundary_forced_waves}  \input{s_overview/text/boundary_forced_waves}
295  %%CNHend  %%CNHend
296    
297  \subsection{Parameter sensitivity using the adjoint of MITgcm}  \subsection{Parameter sensitivity using the adjoint of MITgcm}
# Line 314  deep water for the thermohaline circulat Line 314  deep water for the thermohaline circulat
314  yields sensitivities to all other model parameters.  yields sensitivities to all other model parameters.
315    
316  %%CNHbegin  %%CNHbegin
317  \input{part1/adj_hf_ocean_figure}  \input{s_overview/text/adj_hf_ocean_figure}
318  %%CNHend  %%CNHend
319    
320  \subsection{Global state estimation of the ocean}  \subsection{Global state estimation of the ocean}
# Line 335  consistency with altimetric and in-situ Line 335  consistency with altimetric and in-situ
335  1992-1997.  1992-1997.
336    
337  %% CNHbegin  %% CNHbegin
338  \input{part1/assim_figure}  \input{s_overview/text/assim_figure}
339  %% CNHend  %% CNHend
340    
341  \subsection{Ocean biogeochemical cycles}  \subsection{Ocean biogeochemical cycles}
# Line 355  $\frac{1}{3}^{\circ}\times\frac{1}{3}^{\ Line 355  $\frac{1}{3}^{\circ}\times\frac{1}{3}^{\
355  shown).  shown).
356    
357  %%CNHbegin  %%CNHbegin
358  \input{part1/biogeo_figure}  \input{s_overview/text/biogeo_figure}
359  %%CNHend  %%CNHend
360    
361  \subsection{Simulations of laboratory experiments}  \subsection{Simulations of laboratory experiments}
# Line 373  arrested by its instability in a process Line 373  arrested by its instability in a process
373  stratification of the ACC.  stratification of the ACC.
374    
375  %%CNHbegin  %%CNHbegin
376  \input{part1/lab_figure}  \input{s_overview/text/lab_figure}
377  %%CNHend  %%CNHend
378    
379  % $Header$  % $Header$
# Line 396  and height, $z$, if we are modeling the Line 396  and height, $z$, if we are modeling the
396  \ref{fig:isomorphic-equations}).  \ref{fig:isomorphic-equations}).
397    
398  %%CNHbegin  %%CNHbegin
399  \input{part1/zandpcoord_figure.tex}  \input{s_overview/text/zandpcoord_figure.tex}
400  %%CNHend  %%CNHend
401    
402  The state of the fluid at any time is characterized by the distribution of  The state of the fluid at any time is characterized by the distribution of
# Line 410  kinematic boundary conditions can be app Line 410  kinematic boundary conditions can be app
410  see figure \ref{fig:zandp-vert-coord}.  see figure \ref{fig:zandp-vert-coord}.
411    
412  %%CNHbegin  %%CNHbegin
413  \input{part1/vertcoord_figure.tex}  \input{s_overview/text/vertcoord_figure.tex}
414  %%CNHend  %%CNHend
415    
416  \begin{equation}  \begin{equation}
# Line 661  which, for convenience, are written out Line 661  which, for convenience, are written out
661    
662  \subsection{Hydrostatic, Quasi-hydrostatic, Quasi-nonhydrostatic and  \subsection{Hydrostatic, Quasi-hydrostatic, Quasi-nonhydrostatic and
663  Non-hydrostatic forms}  Non-hydrostatic forms}
664    \label{sec:all_hydrostatic_forms}
665  \begin{rawhtml}  \begin{rawhtml}
666  <!-- CMIREDIR:non_hydrostatic: -->  <!-- CMIREDIR:non_hydrostatic: -->
667  \end{rawhtml}  \end{rawhtml}
# Line 769  Grad and div operators in spherical coor Line 770  Grad and div operators in spherical coor
770  OPERATORS.  OPERATORS.
771    
772  %%CNHbegin  %%CNHbegin
773  \input{part1/sphere_coord_figure.tex}  \input{s_overview/text/sphere_coord_figure.tex}
774  %%CNHend  %%CNHend
775    
776  \subsubsection{Shallow atmosphere approximation}  \subsubsection{Shallow atmosphere approximation}
# Line 890  stepping forward the horizontal momentum Line 891  stepping forward the horizontal momentum
891  stepping forward the vertical momentum equation.  stepping forward the vertical momentum equation.
892    
893  %%CNHbegin  %%CNHbegin
894  \input{part1/solution_strategy_figure.tex}  \input{s_overview/text/solution_strategy_figure.tex}
895  %%CNHend  %%CNHend
896    
897  There is no penalty in implementing \textbf{QH} over \textbf{HPE} except, of  There is no penalty in implementing \textbf{QH} over \textbf{HPE} except, of
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